MAINTENANCE SYSTEM AND METHOD FOR MAINTAINING A GATE DEVICE

Abstract

A maintenance system for a gate device includes a controller, at least one temperature sensor, and an evaluation unit. The controller has a motor control unit which actuates a drive apparatus for driving a gate member, and a non-volatile memory which stores gate data. The gate data is retrievable from the non-volatile memory. The at least one temperature sensor is arranged in a region of the drive apparatus. The at least one temperature sensor continuously transmits a detected temperature as further gate data to the non-volatile memory of the controller. The evaluation unit creates a temperature curve for each of the at least one temperature sensor over a preset operating cycle. A comparison of more than one temperature curve allows a conclusion to be drawn of a need for maintenance of the gate device.

Description

CROSS REFERENCE TO PRIOR APPLICATIONS

This application is a U.S. National Phase application under 35 U.S.C. § 371 of International Application No. PCT/EP2018/068650, filed on Jul. 10, 2018. The International Application was published in German on Jan. 16, 2020 as WO 2020/011341 A1 under PCT Article 21(2).

FIELD

The present invention relates to a maintenance system for a gate device, wherein a controller is provided which comprises a motor control unit for actuating a drive apparatus for driving a gate member and a non-volatile memory for storing gate data, the gate data being retrievable from the non-volatile memory.

BACKGROUND

Such a maintenance system has previously been described in DE 10 2015 102 405.5. It is thus possible to easily maintain a gate device, wherein access to the gate data or the maintenance data, respectively, does not necessarily need to take place on site. Such a maintenance system is, however, still limited to a “malfunction” in which a part of the gate device or the entire gate device has failed or to a regular maintenance interval at which it is then determined, in the best case, that the gate functions properly. Despite the storage of gate data, it is not possible to perform a so-called diagnosis of the gate device which prevents “failures” or “malfunctions” at an early stage and thus in time.

SUMMARY

An aspect of the present invention is to provide a maintenance system for a gate device which provides a diagnosis of the gate device and thus a kind of early-warning system for possible damage.

In an embodiment, the present invention provides a maintenance system for a gate device which includes a controller, at least one temperature sensor, and an evaluation unit. The controller comprises a motor control unit which is configured to actuate a drive apparatus for driving a gate member, and a non-volatile memory which is configured to store gate data. The gate data is retrievable from the non-volatile memory. The at least one temperature sensor is arranged in a region of the drive apparatus. The at least one temperature sensor is configured to continuously transmit a detected temperature as further gate data to the non-volatile memory of the controller. The evaluation unit is configured to create a temperature curve for each of the at least one temperature sensor over a preset operating cycle. A comparison of more than one temperature curve allows a conclusion to be drawn of a need for maintenance of the gate device.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is described in greater detail below on the basis of embodiments and of the drawings in which:

FIG. 1 shows a schematic view of a maintenance system for a gate device according to the prior art;

FIG. 2 shows a schematic side view of the drive apparatus of FIG. 1; and

FIG. 3 shows a schematic diagram of different temperature curves.

DETAILED DESCRIPTION

The maintenance system according to the present invention provides at least one temperature sensor which is situated in the region of the drive apparatus, wherein the temperature sensor continuously transmits detected temperatures T_n as additional gate data to the non-volatile memory of the controller, wherein an evaluation unit is provided which creates a temperature curve f_n(T_N) in each case over preset operating cycles, wherein a comparison of a number of temperature curves f_n(T_N) allows a conclusion to be drawn about a need for maintenance of the gate device. The temperature of the drive apparatus allows for conclusions to be drawn about all movable parts, such as the drive apparatus itself, the transmission, or also the gate leaf as well as the associated bearings. A steadily rising temperature curve over several consecutive operating cycles can in particular be an indication for possible defects in the transmission unit, the gate leaf guidance, or suspension, which can be fixed in an easy and cost-effective manner before resulting in a spontaneous functional failure of the gate device.

The at least one temperature sensor is advantageously provided on a thermally conductive housing part of a housing of the drive apparatus.

A particularly compact system, which is thus also easy to retrofit, is provided by the fact that the evaluation unit is provided in the controller, however, the evaluation unit can also be connected as a retrofit unit to an existing controller.

A plurality of temperature sensors is advantageously provided. A motor housing part, a bearing housing part and/or a transmission housing part can, for example, be provided as housing parts on which temperature sensors are arranged. A defect can thus be localized quicker and easier.

An ambient temperature sensor for detecting the ambient temperature may be provided in order to exclude a seasonal influence on the evaluation of the temperature curves f_n(T_N).

In an embodiment of the present invention, further sensors can, for example, be provided, for example, at least one vibration sensor, at least one microphone and/or at least one electronic nose in the region of the drive apparatus, so that an even more precise diagnosis can be carried out. Particularly when using a microphone, further microphones may be provided which enable a filtering of interfering noise.

The at least one temperature sensor is advantageously mounted to the housing of the drive apparatus via a mechanical bracket. The at least one temperature sensor can alternatively or additionally be arranged on the thermally conductive housing part via a thermally conductive adhesive.

In an embodiment of the present invention, a central maintenance data memory can, for example, be provided, the central maintenance data memory comprising maintenance data for configuring, monitoring and/or modifying at least one controller. The central maintenance data memory can of course be directly connected with the controller. A mobile maintenance device may also be provided which is adapted to be coupled with the non-volatile memory of the controller via a bidirectional first data connection in order to maintain the gate device, wherein the mobile maintenance device is adapted to be coupled directly or indirectly with the central maintenance data memory via a bidirectional second data connection. It is thus possible for an installer to download the current data for maintenance during a maintenance procedure in a particularly quick and easy manner. Faulty work due to information not being available to the installer can thereby be excluded. “Maintenance data” are further immediately transmitted to a central maintenance data memory of a manufacturing company. Access to gate data or maintenance data, respectively, does not necessarily need to take place on site. The definition of the mobile maintenance device is thereby to be understood so that it does not belong to the central maintenance data memory in terms of control.

The gate data may, for example, include a serial number, a gate position, a gate type, a number of closing cycles, hardware information, a fault message and/or operating states of a gate device.

The motor control unit and the non-volatile memory can advantageously be provided separately. It can thereby be provided that the gate data required for the diagnosis or a maintenance procedure, respectively, are not overwritten.

The present invention is described in greater detail below by means of an embodiment under reference to the accompanying drawings.

FIG. 1 shows a schematic view of an arrangement of a maintenance system for a gate device 1. A controller 2 of gate device 1 comprises a motor control unit 3 for actuating a drive apparatus 4, which causes a lowering or lifting of a gate member 5, a non-volatile memory 6, and an evaluation unit 7. Gate data of gate device 1 are stored in the non-volatile memory 6 which is provided separately from the motor control unit 3. Possible gate data may be a serial number, a gate position, a gate type, a number of closing cycles, hardware information, a fault message and/or operating states of gate device 1.

The gate data stored in the non-volatile memory 6 can be read out directly via a first bidirectional data connection 10 from the central maintenance data memory 9 or also from a mobile maintenance device 8, for example, a laptop, a smartphone or a tablet computer. A radio transmitter/receiver 12 is provided in controller 2 for the first bidirectional data connection 10. A USB port may alternatively also be provided. The normal maintenance cycle could, however, also possibly be designed more efficiently if the gate device 1 communicated data directly to the central maintenance data memory 9. This would allow for immediate measures to be taken to prevent a failure of a gate device 1. Necessary spare parts could also be carried directly by the installer during on-site maintenance activities if the maintenance data are known to the installer before performing the maintenance work. In the following description, reading out via the mobile maintenance device 8 is, however, provided as an example.

The mobile maintenance device 8 is connected with a central maintenance data memory 9 via a second bidirectional data connection 11. The central maintenance data memory 9 is, for example, located on a server of a gate manufacturer and includes a plurality of maintenance data of various gate devices. The second bidirectional data connection 11 is used to forward gate data read out from the non-volatile memory 6 by mobile maintenance device 8 to the central maintenance data memory 9, to modify the gate data by the mobile maintenance device 8, and to store the gate data as maintenance data in the central maintenance data memory 9.

Maintenance data stored in the central maintenance data memory 9 can in the same way be transmitted via the first bidirectional data connection 10 and via the second bidirectional data connection 11 from the central maintenance data memory 9 via the mobile maintenance device 8 to the non-volatile memory 6 and can be stored in the non-volatile memory 6.

The maintenance of a gate device 1 can now proceed as follows:

First, an installer, for example, establishes a bidirectional connection between the mobile maintenance device 8 and the non-volatile memory 6. The gate data stored in the non-volatile memory 6 are then read out. The serial number of the gate device 1 can be used for a unique referencing to maintenance data stored in the central maintenance data memory 9. The current maintenance data are then downloaded to the mobile maintenance device 8 so that hereafter the read-out gate data can be compared to the given maintenance data and the installer can start with the required maintenance work. The comparison of gate data and maintenance data can alternatively also be carried out in the central maintenance data memory. The read-out gate data can also be transmitted to the central maintenance data memory 9 for the purpose of documentation and later evaluation.

It is also conceivable that the mobile maintenance device 8 is coupled indirectly with the central maintenance data memory 9 by the fact that a second data connection exists between controller 2 and the central maintenance data memory 9, wherein the mobile maintenance device 8 is then first coupled via the first bidirectional data connection 10 to controller 2. An indirect connection can of course also be established by the fact that the mobile maintenance device 8 is connected to controller 2 via the second bidirectional data connection 11 and via the above-mentioned second data connection between controller 2 and the central maintenance data memory 9.

Controller 2 is here only schematically illustrated. It can be constructed of several components, which can also be provided independently from each other, for example, sensors, circuit boards, actuators. Reference is also made in this regard to DE 10 2014 103 456 for reasons of understanding.

FIG. 2 shows a schematic sectional view of drive apparatus 4 of FIG. 1. Drive apparatus 4 consists of an electric motor 13, whose rotary shaft 14 drives a chain wheel (which is not illustrated further) and thus gate member 5 in a known manner via a worm gear 15. Rotary shaft 14 is mounted by a bearing arrangement 16 in a multi-part housing 17 of drive apparatus 4.

In the present exemplary embodiment, four temperature sensors T₁, T₂, T₃ and T_U (for the ambient temperature) as well as one vibration sensor S_sch are provided which transmit additional gate data to the non-volatile memory 6. The temperature sensor T₁ is arranged on a thermally conductive housing part 19 of electric motor 13 via a mechanical bracket 18. The temperature sensors T₂, T₃ are provided on a housing part 20 in the region of worm gear 15 and bearing arrangement 16 via a thermally conductive adhesive 21. The temperature sensor T_U for the ambient temperature is mounted to a flange part 22 which is not thermally conductive.

The temperature sensors T₁, T₂, T₃ and T_U as well as the vibration sensor S_sch continuously transmit data to the non-volatile memory 6. In previously specified operating cycles, which of course can be changed at any time, the temperature curves f₁, f₂, f₃ and f_U are determined in evaluation unit 7 depending on the temperatures T₁, T₂, T₃ and T_U (as shown in FIG. 3). The data of the vibration sensor S_sch can also be used as a basis for determining curves, which are not, however, here explicitly shown.

A comparison of the individual curves provides information of possible temperature changes due to friction or other malfunctions which are currently not significant but which can ultimately result in a failure of drive apparatus 4.

The present invention is not limited to embodiments described herein; reference should be had to the appended claims.

LIST OF REFERENCE NUMERALS

• • 1 Gate device
  • 2 Controller
  • 3 Motor control unit
  • 4 Drive apparatus
  • 5 Gate member
  • 6 Non-volatile memory
  • 7 Evaluation unit
  • 8 Mobile maintenance device
  • 9 Central maintenance data memory
  • 10 First bidirectional data connection
  • 11 Second bidirectional data connection
  • 12 Radio transmitter/receiver
  • 13 Electric motor
  • 14 Rotary shaft
  • 15 Worm gear
  • 16 Bearing arrangement
  • 17 Multi-part housing
  • 18 Mechanical bracket
  • 19 Thermally conductive housing part
  • 20 Housing part
  • 21 Thermally conductive adhesive
  • 22 Flange part
  • f₁, Temperature curve based on temperature sensor T₁
  • f₂ Temperature curve based on temperature sensor T₂
  • f₃ Temperature curve based on temperature sensor T₃
  • f_U Temperature curve based on temperature sensor T_u
  • S_sch Vibration sensor
  • t Time
  • T Temperature
  • T₁ Temperature sensor
  • T₂ Temperature sensor
  • T₃ Temperature sensor
  • T_U Temperature sensor for the ambient temperature

Claims

1-13. (canceled)

14. A maintenance system for a gate device, the maintenance system comprising:

a controller which comprises, a motor control unit which is configured to actuate a drive apparatus for driving a gate member, and a non-volatile memory which is configured to store gate data, the gate data being retrievable from the non-volatile memory;

at least one temperature sensor which is arranged in a region of the drive apparatus, the at least one temperature sensor being configured to continuously transmit a detected temperature as further gate data to the non-volatile memory of the controller; and

an evaluation unit which is configured to create a temperature curve for each of the at least one temperature sensor over a preset operating cycle,

wherein,

a comparison of more than one temperature curve allows a conclusion to be drawn of a need for maintenance of the gate device.

15. The maintenance system as recited in claim 14, wherein the evaluation unit is arranged in the controller.

16. The maintenance system as recited in claim 15, wherein the at least one temperature sensor is arranged on a thermally conductive housing part of a housing of the drive apparatus.

17. The maintenance system as recited in claim 16, wherein the at least one temperature sensor is arranged on the thermally conductive housing part of the housing of the drive apparatus via a thermally conductive adhesive.

18. The maintenance system as recited in claim 16, wherein a plurality of the at least one temperature sensor is provided.

19. The maintenance system as recited in claim 18, wherein at least one of a motor housing part, a bearing housing part and a transmission housing part are provided as the thermally conductive housing part on which the plurality of the at least one temperature sensor is arranged.

20. The maintenance system as recited in claim 14, further comprising:

an ambient temperature sensor which is configured to detect an ambient temperature.

21. The maintenance system as recited in claim 14, further comprising:

at least one additional sensor selected from at least one of, at least one vibration sensor, at least one microphone, and at least one electronic nose,

the at least one additional sensor being arranged in a region of the drive apparatus.

22. The maintenance system as recited in claim 14, wherein the at least one temperature sensor is mounted to a housing of the drive apparatus via a mechanical bracket.

23. The maintenance system as recited in claim 14, further comprising:

a central maintenance data memory which comprises maintenance data for at least one of configuring, monitoring and modifying the controller.

24. The maintenance system as recited in claim 23, further comprising:

a mobile maintenance device which is configured, to be coupled with the non-volatile memory of the controller via a bidirectional first data connection so as to maintain the gate device, and to be coupled directly or indirectly with the central maintenance data memory via a bidirectional second data connection.

25. The maintenance system as recited in claim 14, wherein the gate data includes at least one of,

a serial number,

a gate position,

a gate type,

a number of closing cycles,

hardware information,

a fault message, and

an operating state,

of the gate device, respectively.

26. The maintenance system as recited in claim 14, wherein the motor control unit and the non-volatile memory are provided separately.